//
// Copyright 2016 Pixar
//
// Licensed under the Apache License, Version 2.0 (the "Apache License")
// with the following modification; you may not use this file except in
// compliance with the Apache License and the following modification to it:
// Section 6. Trademarks. is deleted and replaced with:
//
// 6. Trademarks. This License does not grant permission to use the trade
//    names, trademarks, service marks, or product names of the Licensor
//    and its affiliates, except as required to comply with Section 4(c) of
//    the License and to reproduce the content of the NOTICE file.
//
// You may obtain a copy of the Apache License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
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// distributed under the Apache License with the above modification is
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// KIND, either express or implied. See the Apache License for the specific
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////////////////////////////////////////////////////////////////////////
// This file is generated by a script.  Do not edit directly.  Edit the
// quat.template.h file to make changes.

#ifndef GF_QUATF_H
#define GF_QUATF_H

/// \file gf/quatf.h
/// \ingroup group_gf_LinearAlgebra

#include "pxr/pxr.h"
#include "pxr/base/gf/api.h"
#include "pxr/base/gf/declare.h"
#include "pxr/base/gf/vec3f.h"
#include "pxr/base/gf/traits.h"

#include <boost/functional/hash.hpp>

#include <iosfwd>

PXR_NAMESPACE_OPEN_SCOPE

template <>
struct GfIsGfQuat<class GfQuatf> { static const bool value = true; };

/// \class GfQuatf
/// \ingroup group_gf_LinearAlgebra
///
/// Basic type: a quaternion, a complex number with a real coefficient and
/// three imaginary coefficients, stored as a 3-vector.
///
class GfQuatf
{
  public:
    typedef float ScalarType;
    typedef GfVec3f ImaginaryType;

    /// Default constructor leaves the quaternion undefined.
    GfQuatf() {}

    /// Initialize the real coefficient to \p realVal and the imaginary
    /// coefficients to zero.
    ///
    /// Since quaternions typically must be normalized, reasonable values for
    /// \p realVal are -1, 0, or 1.  Other values are legal but are likely to
    /// be meaningless.
    ///
    explicit GfQuatf (float realVal) : _imaginary(0), _real(realVal) {}

    /// Initialize the real and imaginary coefficients.
    GfQuatf(float real, float i, float j, float k)
        : _imaginary(i, j, k), _real(real)
    {
    }

    /// Initialize the real and imaginary coefficients.
    GfQuatf(float real, const GfVec3f &imaginary)
        : _imaginary(imaginary), _real(real)
    {
    }

    /// Construct from GfQuatd.
    GF_API
    explicit GfQuatf(class GfQuatd const &other);
    /// Implicitly convert from GfQuath.
    GF_API
    GfQuatf(class GfQuath const &other);

    /// Return the identity quaternion, with real coefficient 1 and an
    /// imaginary coefficients all zero.
    static GfQuatf GetIdentity() { return GfQuatf(1.0); }

    /// Return the real coefficient.
    float GetReal() const { return _real; }

    /// Set the real coefficient.
    void SetReal(float real) { _real = real; }

    /// Return the imaginary coefficient.
    const GfVec3f &GetImaginary() const { return _imaginary; }

    /// Set the imaginary coefficients.
    void SetImaginary(const GfVec3f &imaginary) {
        _imaginary = imaginary;
    }

    /// Set the imaginary coefficients.
    void SetImaginary(float i, float j, float k) {
        _imaginary.Set(i, j, k);
    }

    /// Return geometric length of this quaternion.
    float GetLength() const { return GfSqrt(_GetLengthSquared()); }

    /// length of this quaternion is smaller than \p eps, return the identity
    /// quaternion.
    GfQuatf
    GetNormalized(float eps = GF_MIN_VECTOR_LENGTH) const {
        GfQuatf ret(*this);
        ret.Normalize(eps);
        return ret;
    }

    /// Normalizes this quaternion in place to unit length, returning the
    /// length before normalization. If the length of this quaternion is
    /// smaller than \p eps, this sets the quaternion to identity.
    GF_API
    float Normalize(float eps = GF_MIN_VECTOR_LENGTH);

    /// Return this quaternion's conjugate, which is the quaternion with the
    /// same real coefficient and negated imaginary coefficients.
    GfQuatf GetConjugate() const {
        return GfQuatf(GetReal(), -GetImaginary());
    }

    /// Return this quaternion's inverse, or reciprocal.  This is the
    /// quaternion's conjugate divided by it's squared length.
    GfQuatf GetInverse() const {
        return GetConjugate() / _GetLengthSquared();
    }

    /// Hash.
    friend inline size_t hash_value(const GfQuatf &q) {
        size_t h = boost::hash<ScalarType>()(q.GetReal());
        boost::hash_combine(h, q.GetImaginary());
        return h;
    }

    /// Component-wise negation.
    GfQuatf operator-() const {
        return GfQuatf(-GetReal(), -GetImaginary());
    }

    /// Component-wise quaternion equality test. The real and imaginary parts
    /// must match exactly for quaternions to be considered equal.
    bool operator==(const GfQuatf &q) const {
        return (GetReal() == q.GetReal() &&
                GetImaginary() == q.GetImaginary());
    }

    /// Component-wise quaternion inequality test. The real and imaginary
    /// parts must match exactly for quaternions to be considered equal.
    bool operator!=(const GfQuatf &q) const {
        return !(*this == q);
    }

    /// Post-multiply quaternion \p q into this quaternion.
    GF_API
    GfQuatf &operator *=(const GfQuatf &q);

    /// Multiply this quaternion's coefficients by \p s.
    GfQuatf &operator *=(float s) {
        _real *= s;
        _imaginary *= s;
        return *this;
    }

    /// Divide this quaternion's coefficients by \p s.
    GfQuatf &operator /=(float s) {
        _real /= s;
        _imaginary /= s;
        return *this;
    }

    /// Add quaternion \p q to this quaternion.
    GfQuatf &operator +=(const GfQuatf &q) {
        _real += q._real;
        _imaginary += q._imaginary;
        return *this;
    }

    /// Component-wise unary difference operator.
    GfQuatf &operator -=(const GfQuatf &q)  {
        _real -= q._real;
        _imaginary -= q._imaginary;
        return *this;
    }

    /// Component-wise binary sum operator.
    friend GfQuatf
    operator +(const GfQuatf &q1, const GfQuatf &q2) {
        return GfQuatf(q1) += q2;
    }

    /// Component-wise binary difference operator.
    friend GfQuatf
    operator -(const GfQuatf &q1, const GfQuatf &q2) {
        return GfQuatf(q1) -= q2;
    }

    /// Returns the product of quaternions \p q1 and \p q2.
    friend GfQuatf
    operator *(const GfQuatf &q1, const GfQuatf &q2) {
        return GfQuatf(q1) *= q2;
    }

    /// Returns the product of quaternion \p q and scalar \p s.
    friend GfQuatf
    operator *(const GfQuatf &q, float s) {
        return GfQuatf(q) *= s;
    }

    /// Returns the product of quaternion \p q and scalar \p s.
    friend GfQuatf
    operator *(float s, const GfQuatf &q) {
        return GfQuatf(q) *= s;
    }

    /// Returns the product of quaternion \p q and scalar 1 / \p s.
    friend GfQuatf
    operator /(const GfQuatf &q, float s) {
        return GfQuatf(q) /= s;
    }

  private:
    /// Imaginary part
    GfVec3f _imaginary;

    /// Real part
    float _real;

    /// Returns the square of the length
    float
    _GetLengthSquared() const {
        return _real * _real + GfDot(_imaginary, _imaginary);
    }
};

/// Spherically linearly interpolate between \p q0 and \p q1.
///
/// If the interpolant \p alpha is zero, then the result is \p q0, while
/// \p alpha of one yields \p q1.
GF_API GfQuatf
GfSlerp(double alpha, const GfQuatf& q0, const GfQuatf& q1);

GF_API GfQuatf
GfSlerp(const GfQuatf& q0, const GfQuatf& q1, double alpha);

/// Output a GfQuatd using the format (re, i, j, k)
/// \ingroup group_gf_DebuggingOutput
GF_API std::ostream& operator<<(std::ostream &, GfQuatf const &);

PXR_NAMESPACE_CLOSE_SCOPE

#endif // GF_QUATF_H
